Cornell BME/MAE and Weill Cornell Medicine teams report a method for uncovering immune response mechanismRead more
Ankur Singh is an Assistant Professor in the Sibley School of Mechanical & Aerospace Engineering at Cornell University. Dr. Singh has strong expertise in the engineering of biomaterials-based platforms for cell and immune modulation, cell-biomaterial interactions, cell adhesion, stem cell engineering, and vaccines. He received his postdoctoral training at Georgia Tech where he employed engineering and molecular cell biology principles to understand human stem cell reprogramming and differentiation, stem and mature cell adhesion, force response and mechanotransduction. Dr. Singh received his Ph.D. in Biomedical Engineering at The University of Texas at Austin. His research has established multi-modal, biomaterials-based functionalized hydrogel and microparticle to enhance the potency of Non-Hodgkin's Lymphoma and Hepatitis vaccines.
Dr. Singh's "Immunotherapy and Cell Engineering Lab (ICEL)" focuses on engineering immune and therapeutic cells by integrating innovative materials and core concepts of cell immunology, biomechanics, and force transmission. The overall goal of ICEL is to understand the fundamentals of cell-material interactions, underlying cell mechanics, signaling, and to establish novel micro-nano-bioengineering strategies to generate therapeutic cells and engineered tissues. We will achieve this by working at the interface of biomaterials, microfluidics and microfabrication, immune cells, stem cells, and mechanotransduction, Specific research focus includes:
1. Immune-engineering: Materials and Molecular Engineering for Modulating Immunity
2. Engineering Human Stem Cells
3. Micro-Nano-Bioengineering for Cell-Matrix Interactions and understanding cell adhesion
Biofluid Mechanics -MAE 4650/4651/5650
Immuno-engineering -MAE 6630
Biofluid Mechanics and Physiological Transport -MAE 6690
- Purwada, A., A Singh. 2017. "Immuno-engineered organoids for regulating the kinetics of B-cell development and antibody production." Nature Protocols 12 (1): 168-182.
- Tian, Y F., H. Ahn, R S. Schneider, S N. Yang, L. Roman-Gonzalez, A M. Melnick, L. Cerchietti, A Singh. 2015. "Integrin-specific hydrogels as adaptable tumor organoids for malignant B and T cells.." Biomaterials 73: 110-119.
- Purwada, A., M K. Jaiswal, H. Ahn, T. Nojima, D. Kitamura, A K. Gaharwar, L. Cerchietti, A Singh. 2015. "Ex vivo engineered immune organoids for controlled germinal center reactions." Biomaterials 63: 24-34.
- Singh, Ankur, S. Suri, T. Lee, J. Chilton, M. Cooke, W. Chen, J. Fu, H. Lu, T. McDevitt, A Garcia. 2015. "Adhesion strength-based, label-free isolation of human pluripotent stem cells." Nature methods 10 (5): 438-444.
- Lee, T T., J. Garcia, J. Paez, Ankur Singh, E A. Phelps, Z. Shafiq, A. Shekharan, A. del Campo, A J Garcia. 2015. "Light-triggered in vivo activation of adhesive peptides regulates cell adhesion, inflammation and vascularization of biomaterials." Nature Materials 14 (3): 352-360.
Selected Awards and Honors
- 2017 Young Investigator Award from the Society for Biomaterials (Society for Biomaterials) 2017
- Department of Defense Career Award (CDMRP) 2017
- 2015 Biomaterials Outstanding Paper Award (Elsevier) 2016
- National Science Foundation CAREER Award (Division of Materials Research, Biomaterials) 2016
- 2014 Young Innovator in Cellular and Molecular Bioengineering 2014
The University of Texas at Austin 2010
In the News
Ankur Singh, assistant professor in the Sibley School of Mechanical and Aerospace Engineering, has won a $555,000 grant from the defense department to further his study of B-cell lymphoma.Read more
to receive the prestigious 2017 Young Investigator Award from the Society For Biomaterials. This award is specifically given “to recognize an individual who has demonstrated outstanding achievements in the field of biomaterials research within ten years following his/her terminal degree or formal training.”Read more